DE1209605B - Arrangement for switching through the pilot voltages at the receiving end in a method for setting orthogonal equalizers for multi-channel carrier frequency transmission systems - Google Patents

Description

Arrangement for receiving-side switching the pilot voltages with a method for setting Orthogonal equalizers for multi-channel carrier frequency transmission systems additional to the patent: 1143236 The main patent relates to a method of setting the orthogonal Entzerrcrn for damping and runtime equalization, particularly cosine equalizers , for multi-channel carrier frequency transmission systems, in which the setting criterion is obtained by transmitting constantly transmitted pilot voltages, the frequencies of which are distributed over the frequency range of the transmission system and whose levels at the receiving end are evaluated and used to set the orthogonal equalizer. The setting of the individual equalizer elements is carried out automatically one after the other by means of, in particular, purely electronic setting devices.

The individual pilot voltages are filtered out at the receiving end via a filter and fed to a chain switch, which can be a fully electronic device with bistable multivibrators and diode gates, to which the pilot voltages successively from the lowest to the highest frequency and vice versa in the rhythm of a low-frequency repetition or clock frequency ( e.g. 1000 Hz) periodically switches to a common high-frequency amplifier with a downstream rectifier.

The time constant of the rectification is chosen so that on Output of the rectifier is the low-frequency envelope of the sampled pilot voltages, d. H. the repetition or clock frequency and its harmonics appear. These Envelope curve represents a temporally periodic voltage curve simulates the equalizing attenuation curve of the transmission path and its spectral amplitudes the amplitudes of a series of orthogonal functions, in particular a cosine series, correspond. This low-frequency voltage is broken down into its components by band filters decomposed, and the low-frequency components screened out are used for adjustment the cosine equalizer is used.

The switching of the individual pilot voltages to the high-frequency amplifier through the chain switch must be done with the help of switching elements. As such are provided in the subject of the main patent diode gates that of the bistable Toggle circuits (flip-flops) of the chain switch made permeable one after the other will.

So that the pilot voltages do not interfere with the broadband useful signal, they must be transmitted with a very low level, i.e. the switching elements of the chain switch have to switch through very small alternating voltages of a few mV. When using diode gates as switching elements, a direct current must be applied across the diodes flow when they are permeable. By scattering the characteristics of the diodes and Due to their temperature dependency, those applied to the individual diodes are DC voltages are not of the same size and there can therefore be errors in the low-frequency Envelope of the sampled Püotspannungen arise. Even when using push-pull diode gates residual DC voltages are left over the gates, which are in the order of magnitude of the AC voltages to be switched through lie.

To the errors caused by the switching elements in the envelope the gated pilot voltages are to be reduced to an acceptable level there are practically no residual DC voltages at the switching elements when switching through develop. According to the invention, a push-pull circuit is used as the switching element two inversely operated transistors, and the transistors of the push-pull circuits are generated by direct current pulses supplied by the individual flip-flops of the chain switch successively made conductive.

As is well known, inversely operated transistors have very small residual DC voltages in the conductive state. These small residual voltages are canceled out by the push-pull circuit almost completely open. By choosing transistor pairs or integriene Circuits, Made from a crystal, residual stresses of a few RV can be achieved.

The basic circuit of a switching element is shown in FIG. Tsl and Ts2 are the two transistors operated in push-pull. The base and collector connections of the two transistor stores; are connected in parallel to terminals B and C, and if a direct current pder-eiu direct current pulse flows through.äie base-collector paths of the transistors, an alternating current can flow from the emitter of the first transistor Ts 1 to the emitter of the second transistor Ts2. Such circuits are offered by various manufacturers in integrated technology with very good properties.

In Fig. 2, the circuit of the chain switch and the switching elements ° for zehii pilot frequencies is shown schematically. KS is the chain switch with the ten flip-flops F, to F1 ... DE 1 to DE10 are the switching elements. The collector terminals of all switching elements are connected to ground potential 0. The base terminals of the switching elements are connected via resistors R1 to Rio to the emitter leads of the transistors of the corresponding flip-flops F1 to Fio, which are conductive when the flip-flops are excited. The emitter currents of these transistors control the switching elements.

If the flip-flops of the chain switch are excited one after the other in the rhythm of a suitable clock frequency, the associated switching elements are permeable and the pilot voltages present at their inputs Ei to Elo are switched through to the common output A and the connected amplifier HV . The outputs of the pilot filters are therefore finitely connected to the inputs of the switching elements.

Claims (4)

Claims: 1. Arrangement for switching through the receiving side Pzlot voltages in a method for setting orthogonal equalizers for Attenuation and delay equalization for multi-channel carrier frequency transmission systems, especially of cosine equalizers, in which the extraction of the setting criterion through the transmission of constantly sent 'pilot voltages, their frequencies are distributed over the frequency range of the transmission system and their receiving side Levels are evaluated and used to set the orthogonal equalizer, in that - the individual phätspannungen each sifted out through a filter and a Chain switch are supplied, which the pilot voltages one after the other from the lowest to the highest frequency, and vice versa, in the rhythm of a low-frequency repetition frequency (e.g. 1000 Hz) periodically to a common high-frequency amplifier with a downstream Rectifier switches, the chain switch being a fully electronic device with bistable trigger circuits (flip-flops) and the through-connection with the help of D. Durchschaltelemente happens according to patent 1143236, characterized in that that as a switching element in each case a push-pull circuit of two inversely operated Transistors is used and the transistors of the push-pull circuits through by the individual Flip-flops, the direct current pulses supplied by the chain switch conduct one after the other be made. 2. Arrangement according to claim 1, characterized in that the switching elements are made as integrated circuits from a crystal. 3. Arrangement according to Claim 1 and 2, characterized in that the collector terminals of the switching elements are connected to ground potential (0) and, the base terminals of the switching elements Via resistors (R1 to Rio) with the emitter leads of the transistors of the corresponding Flip-flops (F1 to Fio) of the chain switch (KS) are connected, the in the excited4 State of the flip-flops are conductive. 4. Arrangement according to claim 1 and 2, characterized in that the inputs (Ei to E ") of the switching elements are connected to the outputs of the pilot filter and the outputs of the switching elements are combined into a common output (A) and finite the input of the high-frequency amplifier ( HV) are connected.